Microfluidics for Biologists Fundamentals and Applications

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are of primary interests, the analytes are fairly easy to obtain, some device-to-
device variations due to fabrication processes are acceptable and assays can be
easily transferred for use on paper substrates [ 22 ].
Paper-based devices are so attractive due to these factors:



  • Low cost,

  • Operating on low volumes,

  • Abundant supply,

  • Easy to construct devices,

  • Suitable for multiplexing, thus multiple samples can be analyzed
    simultaneously,

  • Reagent storage in dry form,

  • Facile interpretation of the results (produced signal can be read by eye),

  • Do not require additional instrumentation for liquid transport (without pump),

  • Can be designed not to require additional instrumentation to read test results
    [ 23 ],

  • Possible to combine with portable readout systems [ 24 , 25 ], smart phones [ 26 –
    28 ]

  • Highly-skilled staff is not required,

  • Light-weight material,

  • Does not produce bio-hazardous waste,

  • Devices can be mass-produced,

  • Portable format of devices, and many others.


Factors that are often mentioned in a positive context can be, however, seen as
drawbacks when applied in different settings. In fact, this depends on the specifi-
cations to device and the application area.
The following drawbacks are often mentioned:



  • Limited sensitivity of many assays,

  • Lack of quantitation in existing assay formats,

  • Limited number of detection methods can be applied, i.e. colorimetric,
    electrochemical,

  • Often not self-sustained, i.e. to be able to obtain quantitative results paper-based
    devices need to be integrated with external read-out system, which increases the
    costs and complexity [ 22 ].
    Significant progress has been made in increasing functionality of paper-based
    fluidic devices. At the moment, many fluidic operations are possible including
    fluidic timers, valves, sophisticated detection units and even power sources (batte-
    ries)—therefore, potentially it is possible to design complex assays in single paper-
    based device. If, some of the promising design concepts could be mass-produced in
    paper at a price comparable to commercially available rapid tests, they may be
    commercialized in the near future.


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